Yehowshua/ZIm
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions
ZIm/crates/project/src/git_store.rs
Antonio Scandurra 7354ef91e1
Make GitRepository::status async and remove cx parameter (#27514) 
This lays the groundwork for using `status` as part of the new agent
panel.

Release Notes:

- N/A
2025-03-27 09:05:54 +00:00

3672 lines
134 KiB
Rust
Raw Blame History

pub mod git_traversal;
use crate::{
buffer_store::{BufferStore, BufferStoreEvent},
worktree_store::{WorktreeStore, WorktreeStoreEvent},
ProjectEnvironment, ProjectItem, ProjectPath,
};
use anyhow::{anyhow, bail, Context as _, Result};
use askpass::{AskPassDelegate, AskPassSession};
use buffer_diff::{BufferDiff, BufferDiffEvent};
use client::ProjectId;
use collections::HashMap;
use fs::Fs;
use futures::{
channel::{mpsc, oneshot},
future::{self, OptionFuture, Shared},
FutureExt as _, StreamExt as _,
};
use git::{
blame::Blame,
parse_git_remote_url,
repository::{
Branch, CommitDetails, DiffType, GitRepository, GitRepositoryCheckpoint, PushOptions,
Remote, RemoteCommandOutput, RepoPath, ResetMode,
},
status::FileStatus,
BuildPermalinkParams, GitHostingProviderRegistry,
};
use gpui::{
App, AppContext, AsyncApp, Context, Entity, EventEmitter, SharedString, Subscription, Task,
WeakEntity,
};
use language::{
proto::{deserialize_version, serialize_version},
Buffer, BufferEvent, Language, LanguageRegistry,
};
use parking_lot::Mutex;
use rpc::{
proto::{self, git_reset, FromProto, ToProto, SSH_PROJECT_ID},
AnyProtoClient, TypedEnvelope,
};
use serde::Deserialize;
use settings::WorktreeId;
use std::{
collections::{hash_map, VecDeque},
future::Future,
ops::Range,
path::{Path, PathBuf},
sync::Arc,
};
use sum_tree::TreeSet;
use text::BufferId;
use util::{debug_panic, maybe, ResultExt};
use worktree::{
proto_to_branch, File, PathKey, ProjectEntryId, RepositoryEntry, StatusEntry,
UpdatedGitRepositoriesSet, Worktree,
};
pub struct GitStore {
state: GitStoreState,
buffer_store: Entity<BufferStore>,
worktree_store: Entity<WorktreeStore>,
repositories: HashMap<ProjectEntryId, Entity<Repository>>,
active_repo_id: Option<ProjectEntryId>,
#[allow(clippy::type_complexity)]
loading_diffs:
HashMap<(BufferId, DiffKind), Shared<Task<Result<Entity<BufferDiff>, Arc<anyhow::Error>>>>>,
diffs: HashMap<BufferId, Entity<BufferDiffState>>,
update_sender: mpsc::UnboundedSender<GitJob>,
shared_diffs: HashMap<proto::PeerId, HashMap<BufferId, SharedDiffs>>,
_subscriptions: [Subscription; 2],
}
#[derive(Default)]
struct SharedDiffs {
unstaged: Option<Entity<BufferDiff>>,
uncommitted: Option<Entity<BufferDiff>>,
}
#[derive(Default)]
struct BufferDiffState {
unstaged_diff: Option<WeakEntity<BufferDiff>>,
uncommitted_diff: Option<WeakEntity<BufferDiff>>,
recalculate_diff_task: Option<Task<Result<()>>>,
language: Option<Arc<Language>>,
language_registry: Option<Arc<LanguageRegistry>>,
diff_updated_futures: Vec<oneshot::Sender<()>>,
hunk_staging_operation_count: usize,
head_text: Option<Arc<String>>,
index_text: Option<Arc<String>>,
head_changed: bool,
index_changed: bool,
language_changed: bool,
}
#[derive(Clone, Debug)]
enum DiffBasesChange {
SetIndex(Option<String>),
SetHead(Option<String>),
SetEach {
index: Option<String>,
head: Option<String>,
},
SetBoth(Option<String>),
}
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
enum DiffKind {
Unstaged,
Uncommitted,
}
enum GitStoreState {
Local {
downstream_client: Option<LocalDownstreamState>,
environment: Entity<ProjectEnvironment>,
fs: Arc<dyn Fs>,
},
Ssh {
upstream_client: AnyProtoClient,
upstream_project_id: ProjectId,
downstream_client: Option<(AnyProtoClient, ProjectId)>,
environment: Entity<ProjectEnvironment>,
},
Remote {
upstream_client: AnyProtoClient,
project_id: ProjectId,
},
}
enum DownstreamUpdate {
UpdateRepository(RepositoryEntry),
RemoveRepository(ProjectEntryId),
}
struct LocalDownstreamState {
client: AnyProtoClient,
project_id: ProjectId,
updates_tx: mpsc::UnboundedSender<DownstreamUpdate>,
_task: Task<Result<()>>,
}
#[derive(Clone)]
pub struct GitStoreCheckpoint {
checkpoints_by_work_dir_abs_path: HashMap<PathBuf, GitRepositoryCheckpoint>,
}
pub struct Repository {
pub repository_entry: RepositoryEntry,
pub merge_message: Option<String>,
pub completed_scan_id: usize,
commit_message_buffer: Option<Entity<Buffer>>,
git_store: WeakEntity<GitStore>,
project_environment: Option<WeakEntity<ProjectEnvironment>>,
pub worktree_id: Option<WorktreeId>,
state: RepositoryState,
job_sender: mpsc::UnboundedSender<GitJob>,
askpass_delegates: Arc<Mutex<HashMap<u64, AskPassDelegate>>>,
latest_askpass_id: u64,
}
#[derive(Clone)]
enum RepositoryState {
Local(Arc<dyn GitRepository>),
Remote {
project_id: ProjectId,
client: AnyProtoClient,
work_directory_id: ProjectEntryId,
},
}
#[derive(Debug)]
pub enum GitEvent {
ActiveRepositoryChanged,
FileSystemUpdated,
GitStateUpdated,
IndexWriteError(anyhow::Error),
}
struct GitJob {
job: Box<dyn FnOnce(&mut AsyncApp) -> Task<()>>,
key: Option<GitJobKey>,
}
#[derive(PartialEq, Eq)]
enum GitJobKey {
WriteIndex(RepoPath),
BatchReadIndex(ProjectEntryId),
}
impl EventEmitter<GitEvent> for GitStore {}
impl GitStore {
pub fn local(
worktree_store: &Entity<WorktreeStore>,
buffer_store: Entity<BufferStore>,
environment: Entity<ProjectEnvironment>,
fs: Arc<dyn Fs>,
cx: &mut Context<Self>,
) -> Self {
Self::new(
worktree_store.clone(),
buffer_store,
GitStoreState::Local {
downstream_client: None,
environment,
fs,
},
cx,
)
}
pub fn remote(
worktree_store: &Entity<WorktreeStore>,
buffer_store: Entity<BufferStore>,
upstream_client: AnyProtoClient,
project_id: ProjectId,
cx: &mut Context<Self>,
) -> Self {
Self::new(
worktree_store.clone(),
buffer_store,
GitStoreState::Remote {
upstream_client,
project_id,
},
cx,
)
}
pub fn ssh(
worktree_store: &Entity<WorktreeStore>,
buffer_store: Entity<BufferStore>,
environment: Entity<ProjectEnvironment>,
upstream_client: AnyProtoClient,
cx: &mut Context<Self>,
) -> Self {
Self::new(
worktree_store.clone(),
buffer_store,
GitStoreState::Ssh {
upstream_client,
upstream_project_id: ProjectId(SSH_PROJECT_ID),
downstream_client: None,
environment,
},
cx,
)
}
fn new(
worktree_store: Entity<WorktreeStore>,
buffer_store: Entity<BufferStore>,
state: GitStoreState,
cx: &mut Context<Self>,
) -> Self {
let update_sender = Self::spawn_git_worker(cx);
let _subscriptions = [
cx.subscribe(&worktree_store, Self::on_worktree_store_event),
cx.subscribe(&buffer_store, Self::on_buffer_store_event),
];
GitStore {
state,
buffer_store,
worktree_store,
repositories: HashMap::default(),
active_repo_id: None,
update_sender,
_subscriptions,
loading_diffs: HashMap::default(),
shared_diffs: HashMap::default(),
diffs: HashMap::default(),
}
}
pub fn init(client: &AnyProtoClient) {
client.add_entity_request_handler(Self::handle_get_remotes);
client.add_entity_request_handler(Self::handle_get_branches);
client.add_entity_request_handler(Self::handle_change_branch);
client.add_entity_request_handler(Self::handle_create_branch);
client.add_entity_request_handler(Self::handle_git_init);
client.add_entity_request_handler(Self::handle_push);
client.add_entity_request_handler(Self::handle_pull);
client.add_entity_request_handler(Self::handle_fetch);
client.add_entity_request_handler(Self::handle_stage);
client.add_entity_request_handler(Self::handle_unstage);
client.add_entity_request_handler(Self::handle_commit);
client.add_entity_request_handler(Self::handle_reset);
client.add_entity_request_handler(Self::handle_show);
client.add_entity_request_handler(Self::handle_checkout_files);
client.add_entity_request_handler(Self::handle_open_commit_message_buffer);
client.add_entity_request_handler(Self::handle_set_index_text);
client.add_entity_request_handler(Self::handle_askpass);
client.add_entity_request_handler(Self::handle_check_for_pushed_commits);
client.add_entity_request_handler(Self::handle_git_diff);
client.add_entity_request_handler(Self::handle_open_unstaged_diff);
client.add_entity_request_handler(Self::handle_open_uncommitted_diff);
client.add_entity_message_handler(Self::handle_update_diff_bases);
client.add_entity_request_handler(Self::handle_get_permalink_to_line);
client.add_entity_request_handler(Self::handle_blame_buffer);
client.add_entity_message_handler(Self::handle_update_repository);
client.add_entity_message_handler(Self::handle_remove_repository);
}
pub fn is_local(&self) -> bool {
matches!(self.state, GitStoreState::Local { .. })
}
pub fn shared(&mut self, project_id: u64, client: AnyProtoClient, cx: &mut Context<Self>) {
match &mut self.state {
GitStoreState::Ssh {
downstream_client, ..
} => {
for repo in self.repositories.values() {
client
.send(repo.read(cx).repository_entry.initial_update(project_id))
.log_err();
}
*downstream_client = Some((client, ProjectId(project_id)));
}
GitStoreState::Local {
downstream_client, ..
} => {
let mut snapshots = HashMap::default();
let (updates_tx, mut updates_rx) = mpsc::unbounded();
for repo in self.repositories.values() {
updates_tx
.unbounded_send(DownstreamUpdate::UpdateRepository(
repo.read(cx).repository_entry.clone(),
))
.ok();
}
*downstream_client = Some(LocalDownstreamState {
client: client.clone(),
project_id: ProjectId(project_id),
updates_tx,
_task: cx.spawn(async move |this, cx| {
cx.background_spawn(async move {
while let Some(update) = updates_rx.next().await {
match update {
DownstreamUpdate::UpdateRepository(snapshot) => {
if let Some(old_snapshot) =
snapshots.get_mut(&snapshot.work_directory_id)
{
let update =
snapshot.build_update(old_snapshot, project_id);
*old_snapshot = snapshot;
client.send(update)?;
} else {
let update = snapshot.initial_update(project_id);
client.send(update)?;
snapshots.insert(snapshot.work_directory_id, snapshot);
}
}
DownstreamUpdate::RemoveRepository(id) => {
client.send(proto::RemoveRepository {
project_id,
id: id.to_proto(),
})?;
}
}
}
anyhow::Ok(())
})
.await
.ok();
this.update(cx, |this, _| {
if let GitStoreState::Local {
downstream_client, ..
} = &mut this.state
{
downstream_client.take();
} else {
unreachable!("unshared called on remote store");
}
})
}),
});
}
GitStoreState::Remote { .. } => {
debug_panic!("shared called on remote store");
}
}
}
pub fn unshared(&mut self, _cx: &mut Context<Self>) {
match &mut self.state {
GitStoreState::Local {
downstream_client, ..
} => {
downstream_client.take();
}
GitStoreState::Ssh {
downstream_client, ..
} => {
downstream_client.take();
}
GitStoreState::Remote { .. } => {
debug_panic!("unshared called on remote store");
}
}
self.shared_diffs.clear();
}
pub(crate) fn forget_shared_diffs_for(&mut self, peer_id: &proto::PeerId) {
self.shared_diffs.remove(peer_id);
}
pub fn active_repository(&self) -> Option<Entity<Repository>> {
self.active_repo_id
.as_ref()
.map(|id| self.repositories[&id].clone())
}
pub fn open_unstaged_diff(
&mut self,
buffer: Entity<Buffer>,
cx: &mut Context<Self>,
) -> Task<Result<Entity<BufferDiff>>> {
let buffer_id = buffer.read(cx).remote_id();
if let Some(diff_state) = self.diffs.get(&buffer_id) {
if let Some(unstaged_diff) = diff_state
.read(cx)
.unstaged_diff
.as_ref()
.and_then(|weak| weak.upgrade())
{
if let Some(task) =
diff_state.update(cx, |diff_state, _| diff_state.wait_for_recalculation())
{
return cx.background_executor().spawn(async move {
task.await?;
Ok(unstaged_diff)
});
}
return Task::ready(Ok(unstaged_diff));
}
}
let task = match self.loading_diffs.entry((buffer_id, DiffKind::Unstaged)) {
hash_map::Entry::Occupied(e) => e.get().clone(),
hash_map::Entry::Vacant(entry) => {
let staged_text = self.state.load_staged_text(&buffer, &self.buffer_store, cx);
entry
.insert(
cx.spawn(async move |this, cx| {
Self::open_diff_internal(
this,
DiffKind::Unstaged,
staged_text.await.map(DiffBasesChange::SetIndex),
buffer,
cx,
)
.await
.map_err(Arc::new)
})
.shared(),
)
.clone()
}
};
cx.background_spawn(async move { task.await.map_err(|e| anyhow!("{e}")) })
}
pub fn open_uncommitted_diff(
&mut self,
buffer: Entity<Buffer>,
cx: &mut Context<Self>,
) -> Task<Result<Entity<BufferDiff>>> {
let buffer_id = buffer.read(cx).remote_id();
if let Some(diff_state) = self.diffs.get(&buffer_id) {
if let Some(uncommitted_diff) = diff_state
.read(cx)
.uncommitted_diff
.as_ref()
.and_then(|weak| weak.upgrade())
{
if let Some(task) =
diff_state.update(cx, |diff_state, _| diff_state.wait_for_recalculation())
{
return cx.background_executor().spawn(async move {
task.await?;
Ok(uncommitted_diff)
});
}
return Task::ready(Ok(uncommitted_diff));
}
}
let task = match self.loading_diffs.entry((buffer_id, DiffKind::Uncommitted)) {
hash_map::Entry::Occupied(e) => e.get().clone(),
hash_map::Entry::Vacant(entry) => {
let changes = self
.state
.load_committed_text(&buffer, &self.buffer_store, cx);
entry
.insert(
cx.spawn(async move |this, cx| {
Self::open_diff_internal(
this,
DiffKind::Uncommitted,
changes.await,
buffer,
cx,
)
.await
.map_err(Arc::new)
})
.shared(),
)
.clone()
}
};
cx.background_spawn(async move { task.await.map_err(|e| anyhow!("{e}")) })
}
async fn open_diff_internal(
this: WeakEntity<Self>,
kind: DiffKind,
texts: Result<DiffBasesChange>,
buffer_entity: Entity<Buffer>,
cx: &mut AsyncApp,
) -> Result<Entity<BufferDiff>> {
let diff_bases_change = match texts {
Err(e) => {
this.update(cx, |this, cx| {
let buffer = buffer_entity.read(cx);
let buffer_id = buffer.remote_id();
this.loading_diffs.remove(&(buffer_id, kind));
})?;
return Err(e);
}
Ok(change) => change,
};
this.update(cx, |this, cx| {
let buffer = buffer_entity.read(cx);
let buffer_id = buffer.remote_id();
let language = buffer.language().cloned();
let language_registry = buffer.language_registry();
let text_snapshot = buffer.text_snapshot();
this.loading_diffs.remove(&(buffer_id, kind));
let diff_state = this
.diffs
.entry(buffer_id)
.or_insert_with(|| cx.new(|_| BufferDiffState::default()));
let diff = cx.new(|cx| BufferDiff::new(&text_snapshot, cx));
cx.subscribe(&diff, Self::on_buffer_diff_event).detach();
diff_state.update(cx, |diff_state, cx| {
diff_state.language = language;
diff_state.language_registry = language_registry;
match kind {
DiffKind::Unstaged => diff_state.unstaged_diff = Some(diff.downgrade()),
DiffKind::Uncommitted => {
let unstaged_diff = if let Some(diff) = diff_state.unstaged_diff() {
diff
} else {
let unstaged_diff = cx.new(|cx| BufferDiff::new(&text_snapshot, cx));
diff_state.unstaged_diff = Some(unstaged_diff.downgrade());
unstaged_diff
};
diff.update(cx, |diff, _| diff.set_secondary_diff(unstaged_diff));
diff_state.uncommitted_diff = Some(diff.downgrade())
}
}
let rx = diff_state.diff_bases_changed(text_snapshot, diff_bases_change, 0, cx);
anyhow::Ok(async move {
rx.await.ok();
Ok(diff)
})
})
})??
.await
}
pub fn get_unstaged_diff(&self, buffer_id: BufferId, cx: &App) -> Option<Entity<BufferDiff>> {
let diff_state = self.diffs.get(&buffer_id)?;
diff_state.read(cx).unstaged_diff.as_ref()?.upgrade()
}
pub fn get_uncommitted_diff(
&self,
buffer_id: BufferId,
cx: &App,
) -> Option<Entity<BufferDiff>> {
let diff_state = self.diffs.get(&buffer_id)?;
diff_state.read(cx).uncommitted_diff.as_ref()?.upgrade()
}
pub fn project_path_git_status(
&self,
project_path: &ProjectPath,
cx: &App,
) -> Option<FileStatus> {
let (repo, repo_path) = self.repository_and_path_for_project_path(project_path, cx)?;
Some(
repo.read(cx)
.repository_entry
.status_for_path(&repo_path)?
.status,
)
}
pub fn checkpoint(&self, cx: &App) -> Task<Result<GitStoreCheckpoint>> {
let mut work_directory_abs_paths = Vec::new();
let mut checkpoints = Vec::new();
for repository in self.repositories.values() {
let repository = repository.read(cx);
work_directory_abs_paths
.push(repository.repository_entry.work_directory_abs_path.clone());
checkpoints.push(repository.checkpoint().map(|checkpoint| checkpoint?));
}
cx.background_executor().spawn(async move {
let checkpoints = future::try_join_all(checkpoints).await?;
Ok(GitStoreCheckpoint {
checkpoints_by_work_dir_abs_path: work_directory_abs_paths
.into_iter()
.zip(checkpoints)
.collect(),
})
})
}
pub fn restore_checkpoint(&self, checkpoint: GitStoreCheckpoint, cx: &App) -> Task<Result<()>> {
let repositories_by_work_dir_abs_path = self
.repositories
.values()
.map(|repo| {
(
repo.read(cx)
.repository_entry
.work_directory_abs_path
.clone(),
repo,
)
})
.collect::<HashMap<_, _>>();
let mut tasks = Vec::new();
for (dot_git_abs_path, checkpoint) in checkpoint.checkpoints_by_work_dir_abs_path {
if let Some(repository) = repositories_by_work_dir_abs_path.get(&dot_git_abs_path) {
let restore = repository.read(cx).restore_checkpoint(checkpoint);
tasks.push(async move { restore.await? });
}
}
cx.background_spawn(async move {
future::try_join_all(tasks).await?;
Ok(())
})
}
/// Compares two checkpoints, returning true if they are equal.
pub fn compare_checkpoints(
&self,
left: GitStoreCheckpoint,
mut right: GitStoreCheckpoint,
cx: &App,
) -> Task<Result<bool>> {
let repositories_by_work_dir_abs_path = self
.repositories
.values()
.map(|repo| {
(
repo.read(cx)
.repository_entry
.work_directory_abs_path
.clone(),
repo,
)
})
.collect::<HashMap<_, _>>();
let mut tasks = Vec::new();
for (dot_git_abs_path, left_checkpoint) in left.checkpoints_by_work_dir_abs_path {
if let Some(right_checkpoint) = right
.checkpoints_by_work_dir_abs_path
.remove(&dot_git_abs_path)
{
if let Some(repository) = repositories_by_work_dir_abs_path.get(&dot_git_abs_path) {
let compare = repository
.read(cx)
.compare_checkpoints(left_checkpoint, right_checkpoint);
tasks.push(async move { compare.await? });
}
} else {
return Task::ready(Ok(false));
}
}
cx.background_spawn(async move {
Ok(future::try_join_all(tasks)
.await?
.into_iter()
.all(|result| result))
})
}
pub fn delete_checkpoint(&self, checkpoint: GitStoreCheckpoint, cx: &App) -> Task<Result<()>> {
let repositories_by_work_directory_abs_path = self
.repositories
.values()
.map(|repo| {
(
repo.read(cx)
.repository_entry
.work_directory_abs_path
.clone(),
repo,
)
})
.collect::<HashMap<_, _>>();
let mut tasks = Vec::new();
for (work_dir_abs_path, checkpoint) in checkpoint.checkpoints_by_work_dir_abs_path {
if let Some(repository) =
repositories_by_work_directory_abs_path.get(&work_dir_abs_path)
{
let delete = repository.read(cx).delete_checkpoint(checkpoint);
tasks.push(async move { delete.await? });
}
}
cx.background_spawn(async move {
future::try_join_all(tasks).await?;
Ok(())
})
}
/// Blames a buffer.
pub fn blame_buffer(
&self,
buffer: &Entity<Buffer>,
version: Option<clock::Global>,
cx: &App,
) -> Task<Result<Option<Blame>>> {
let buffer = buffer.read(cx);
let Some(file) = File::from_dyn(buffer.file()) else {
return Task::ready(Err(anyhow!("buffer has no file")));
};
match file.worktree.clone().read(cx) {
Worktree::Local(worktree) => {
let worktree = worktree.snapshot();
let blame_params = maybe!({
let local_repo = match worktree.local_repo_containing_path(&file.path) {
Some(repo_for_path) => repo_for_path,
None => return Ok(None),
};
let relative_path = local_repo
.relativize(&file.path)
.context("failed to relativize buffer path")?;
let repo = local_repo.repo().clone();
let content = match version {
Some(version) => buffer.rope_for_version(&version).clone(),
None => buffer.as_rope().clone(),
};
anyhow::Ok(Some((repo, relative_path, content)))
});
cx.spawn(async move |_cx| {
let Some((repo, relative_path, content)) = blame_params? else {
return Ok(None);
};
repo.blame(relative_path.clone(), content)
.await
.with_context(|| format!("Failed to blame {:?}", relative_path.0))
.map(Some)
})
}
Worktree::Remote(worktree) => {
let buffer_id = buffer.remote_id();
let version = buffer.version();
let project_id = worktree.project_id();
let client = worktree.client();
cx.spawn(async move |_| {
let response = client
.request(proto::BlameBuffer {
project_id,
buffer_id: buffer_id.into(),
version: serialize_version(&version),
})
.await?;
Ok(deserialize_blame_buffer_response(response))
})
}
}
}
pub fn get_permalink_to_line(
&self,
buffer: &Entity<Buffer>,
selection: Range<u32>,
cx: &App,
) -> Task<Result<url::Url>> {
let buffer = buffer.read(cx);
let Some(file) = File::from_dyn(buffer.file()) else {
return Task::ready(Err(anyhow!("buffer has no file")));
};
match file.worktree.read(cx) {
Worktree::Local(worktree) => {
let repository = self
.repository_and_path_for_project_path(
&(worktree.id(), file.path.clone()).into(),
cx,
)
.map(|(repository, _)| repository);
let Some((local_repo_entry, repo_entry)) = repository.and_then(|repository| {
let repository = repository.read(cx);
let repo_entry = repository.repository_entry.clone();
Some((worktree.get_local_repo(&repo_entry)?, repo_entry))
}) else {
// If we're not in a Git repo, check whether this is a Rust source
// file in the Cargo registry (presumably opened with go-to-definition
// from a normal Rust file). If so, we can put together a permalink
// using crate metadata.
if buffer
.language()
.is_none_or(|lang| lang.name() != "Rust".into())
{
return Task::ready(Err(anyhow!("no permalink available")));
}
let Some(file_path) = worktree.absolutize(&file.path).ok() else {
return Task::ready(Err(anyhow!("no permalink available")));
};
return cx.spawn(async move |cx| {
let provider_registry =
cx.update(GitHostingProviderRegistry::default_global)?;
get_permalink_in_rust_registry_src(provider_registry, file_path, selection)
.map_err(|_| anyhow!("no permalink available"))
});
};
let path = match local_repo_entry.relativize(&file.path) {
Ok(RepoPath(path)) => path,
Err(e) => return Task::ready(Err(e)),
};
let remote = repo_entry
.branch()
.and_then(|b| b.upstream.as_ref())
.and_then(|b| b.remote_name())
.unwrap_or("origin")
.to_string();
let repo = local_repo_entry.repo().clone();
cx.spawn(async move |cx| {
let origin_url = repo
.remote_url(&remote)
.ok_or_else(|| anyhow!("remote \"{remote}\" not found"))?;
let sha = repo
.head_sha()
.ok_or_else(|| anyhow!("failed to read HEAD SHA"))?;
let provider_registry =
cx.update(GitHostingProviderRegistry::default_global)?;
let (provider, remote) =
parse_git_remote_url(provider_registry, &origin_url)
.ok_or_else(|| anyhow!("failed to parse Git remote URL"))?;
let path = path
.to_str()
.ok_or_else(|| anyhow!("failed to convert path to string"))?;
Ok(provider.build_permalink(
remote,
BuildPermalinkParams {
sha: &sha,
path,
selection: Some(selection),
},
))
})
}
Worktree::Remote(worktree) => {
let buffer_id = buffer.remote_id();
let project_id = worktree.project_id();
let client = worktree.client();
cx.spawn(async move |_| {
let response = client
.request(proto::GetPermalinkToLine {
project_id,
buffer_id: buffer_id.into(),
selection: Some(proto::Range {
start: selection.start as u64,
end: selection.end as u64,
}),
})
.await?;
url::Url::parse(&response.permalink).context("failed to parse permalink")
})
}
}
}
fn downstream_client(&self) -> Option<(AnyProtoClient, ProjectId)> {
match &self.state {
GitStoreState::Local {
downstream_client, ..
} => downstream_client
.as_ref()
.map(|state| (state.client.clone(), state.project_id)),
GitStoreState::Ssh {
downstream_client, ..
} => downstream_client.clone(),
GitStoreState::Remote { .. } => None,
}
}
fn upstream_client(&self) -> Option<AnyProtoClient> {
match &self.state {
GitStoreState::Local { .. } => None,
GitStoreState::Ssh {
upstream_client, ..
}
| GitStoreState::Remote {
upstream_client, ..
} => Some(upstream_client.clone()),
}
}
fn project_environment(&self) -> Option<Entity<ProjectEnvironment>> {
match &self.state {
GitStoreState::Local { environment, .. } => Some(environment.clone()),
GitStoreState::Ssh { environment, .. } => Some(environment.clone()),
GitStoreState::Remote { .. } => None,
}
}
fn project_id(&self) -> Option<ProjectId> {
match &self.state {
GitStoreState::Local { .. } => None,
GitStoreState::Ssh { .. } => Some(ProjectId(proto::SSH_PROJECT_ID)),
GitStoreState::Remote { project_id, .. } => Some(*project_id),
}
}
fn on_worktree_store_event(
&mut self,
worktree_store: Entity<WorktreeStore>,
event: &WorktreeStoreEvent,
cx: &mut Context<Self>,
) {
match event {
WorktreeStoreEvent::WorktreeUpdatedGitRepositories(worktree_id, changed_repos) => {
// We should only get this event for a local project.
self.update_repositories(&worktree_store, cx);
if self.is_local() {
if let Some(worktree) =
worktree_store.read(cx).worktree_for_id(*worktree_id, cx)
{
self.local_worktree_git_repos_changed(worktree, changed_repos, cx);
}
}
cx.emit(GitEvent::GitStateUpdated);
}
WorktreeStoreEvent::WorktreeAdded(_) => {}
_ => {
cx.emit(GitEvent::FileSystemUpdated);
}
}
}
fn update_repositories(
&mut self,
worktree_store: &Entity<WorktreeStore>,
cx: &mut Context<'_, GitStore>,
) {
let mut new_repositories = HashMap::default();
let git_store = cx.weak_entity();
worktree_store.update(cx, |worktree_store, cx| {
for worktree in worktree_store.worktrees() {
worktree.update(cx, |worktree, cx| {
let snapshot = worktree.snapshot();
for repo_entry in snapshot.repositories().iter() {
let git_repo_and_merge_message = worktree
.as_local()
.and_then(|local_worktree| local_worktree.get_local_repo(repo_entry))
.map(|local_repo| {
(
RepositoryState::Local(local_repo.repo().clone()),
local_repo.merge_message.clone(),
)
})
.or_else(|| {
let git_repo = RepositoryState::Remote {
project_id: self.project_id()?,
client: self
.upstream_client()
.context("no upstream client")
.log_err()?
.clone(),
work_directory_id: repo_entry.work_directory_id(),
};
Some((git_repo, None))
});
let Some((git_repo, merge_message)) = git_repo_and_merge_message else {
continue;
};
let existing_repo = self
.repositories
.values()
.find(|repo| repo.read(cx).id() == repo_entry.work_directory_id());
let repo = if let Some(existing_repo) = existing_repo {
// Update the statuses and merge message but keep everything else.
let existing_repo = existing_repo.clone();
existing_repo.update(cx, |existing_repo, _| {
existing_repo.repository_entry = repo_entry.clone();
if matches!(git_repo, RepositoryState::Local { .. }) {
existing_repo.merge_message = merge_message;
existing_repo.completed_scan_id = worktree.completed_scan_id();
}
});
existing_repo
} else {
cx.new(|_| Repository {
worktree_id: Some(worktree.id()),
project_environment: self
.project_environment()
.as_ref()
.map(|env| env.downgrade()),
git_store: git_store.clone(),
askpass_delegates: Default::default(),
latest_askpass_id: 0,
repository_entry: repo_entry.clone(),
job_sender: self.update_sender.clone(),
merge_message,
commit_message_buffer: None,
completed_scan_id: worktree.completed_scan_id(),
state: git_repo,
})
};
// TODO only send out messages for repository snapshots that have changed
let snapshot = repo.read(cx).repository_entry.clone();
if let GitStoreState::Local {
downstream_client: Some(state),
..
} = &self.state
{
state
.updates_tx
.unbounded_send(DownstreamUpdate::UpdateRepository(snapshot))
.ok();
}
new_repositories.insert(repo_entry.work_directory_id(), repo);
self.repositories.remove(&repo_entry.work_directory_id());
}
})
}
});
if let GitStoreState::Local {
downstream_client: Some(state),
..
} = &self.state
{
for id in self.repositories.keys().cloned() {
state
.updates_tx
.unbounded_send(DownstreamUpdate::RemoveRepository(id))
.ok();
}
}
self.repositories = new_repositories;
if let Some(id) = self.active_repo_id.as_ref() {
if !self.repositories.contains_key(id) {
self.active_repo_id = None;
}
} else if let Some(&first_id) = self.repositories.keys().next() {
self.active_repo_id = Some(first_id);
}
}
fn on_buffer_store_event(
&mut self,
_: Entity<BufferStore>,
event: &BufferStoreEvent,
cx: &mut Context<Self>,
) {
match event {
BufferStoreEvent::BufferAdded(buffer) => {
cx.subscribe(&buffer, |this, buffer, event, cx| {
if let BufferEvent::LanguageChanged = event {
let buffer_id = buffer.read(cx).remote_id();
if let Some(diff_state) = this.diffs.get(&buffer_id) {
diff_state.update(cx, |diff_state, cx| {
diff_state.buffer_language_changed(buffer, cx);
});
}
}
})
.detach();
}
BufferStoreEvent::SharedBufferClosed(peer_id, buffer_id) => {
if let Some(diffs) = self.shared_diffs.get_mut(peer_id) {
diffs.remove(buffer_id);
}
}
BufferStoreEvent::BufferDropped(buffer_id) => {
self.diffs.remove(&buffer_id);
for diffs in self.shared_diffs.values_mut() {
diffs.remove(buffer_id);
}
}
_ => {}
}
}
pub fn recalculate_buffer_diffs(
&mut self,
buffers: Vec<Entity<Buffer>>,
cx: &mut Context<Self>,
) -> impl Future<Output = ()> {
let mut futures = Vec::new();
for buffer in buffers {
if let Some(diff_state) = self.diffs.get_mut(&buffer.read(cx).remote_id()) {
let buffer = buffer.read(cx).text_snapshot();
futures.push(diff_state.update(cx, |diff_state, cx| {
diff_state.recalculate_diffs(
buffer,
diff_state.hunk_staging_operation_count,
cx,
)
}));
}
}
async move {
futures::future::join_all(futures).await;
}
}
fn on_buffer_diff_event(
&mut self,
diff: Entity<buffer_diff::BufferDiff>,
event: &BufferDiffEvent,
cx: &mut Context<Self>,
) {
if let BufferDiffEvent::HunksStagedOrUnstaged(new_index_text) = event {
let buffer_id = diff.read(cx).buffer_id;
if let Some(diff_state) = self.diffs.get(&buffer_id) {
diff_state.update(cx, |diff_state, _| {
diff_state.hunk_staging_operation_count += 1;
});
}
if let Some((repo, path)) = self.repository_and_path_for_buffer_id(buffer_id, cx) {
let recv = repo.update(cx, |repo, cx| {
log::debug!("updating index text for buffer {}", path.display());
repo.spawn_set_index_text_job(
path,
new_index_text.as_ref().map(|rope| rope.to_string()),
cx,
)
});
let diff = diff.downgrade();
cx.spawn(async move |this, cx| {
if let Ok(Err(error)) = cx.background_spawn(recv).await {
diff.update(cx, |diff, cx| {
diff.clear_pending_hunks(cx);
})
.ok();
this.update(cx, |_, cx| cx.emit(GitEvent::IndexWriteError(error)))
.ok();
}
})
.detach();
}
}
}
fn local_worktree_git_repos_changed(
&mut self,
worktree: Entity<Worktree>,
changed_repos: &UpdatedGitRepositoriesSet,
cx: &mut Context<Self>,
) {
debug_assert!(worktree.read(cx).is_local());
let Some(active_repo) = self.active_repository() else {
log::error!("local worktree changed but we have no active repository");
return;
};
let mut diff_state_updates = HashMap::<ProjectEntryId, Vec<_>>::default();
for (buffer_id, diff_state) in &self.diffs {
let Some(buffer) = self.buffer_store.read(cx).get(*buffer_id) else {
continue;
};
let Some(file) = File::from_dyn(buffer.read(cx).file()) else {
continue;
};
if file.worktree != worktree {
continue;
}
let Some(repo_id) = changed_repos
.iter()
.map(|(entry, _)| entry.id)
.find(|repo_id| self.repositories().contains_key(&repo_id))
else {
continue;
};
let diff_state = diff_state.read(cx);
let has_unstaged_diff = diff_state
.unstaged_diff
.as_ref()
.is_some_and(|diff| diff.is_upgradable());
let has_uncommitted_diff = diff_state
.uncommitted_diff
.as_ref()
.is_some_and(|set| set.is_upgradable());
let update = (
buffer,
file.path.clone(),
has_unstaged_diff.then(|| diff_state.index_text.clone()),
has_uncommitted_diff.then(|| diff_state.head_text.clone()),
diff_state.hunk_staging_operation_count,
);
diff_state_updates.entry(repo_id).or_default().push(update);
}
if diff_state_updates.is_empty() {
return;
}
for (repo_id, repo_diff_state_updates) in diff_state_updates.into_iter() {
let worktree = worktree.downgrade();
let git_store = cx.weak_entity();
let _ = active_repo.read(cx).send_keyed_job(
Some(GitJobKey::BatchReadIndex(repo_id)),
|_, mut cx| async move {
let snapshot = worktree.update(&mut cx, |tree, _| {
tree.as_local().map(|local_tree| local_tree.snapshot())
});
let Ok(Some(snapshot)) = snapshot else {
return;
};
let mut diff_bases_changes_by_buffer = Vec::new();
for (
buffer,
path,
current_index_text,
current_head_text,
hunk_staging_operation_count,
) in &repo_diff_state_updates
{
let Some(local_repo) = snapshot.local_repo_containing_path(&path) else {
continue;
};
let Some(relative_path) = local_repo.relativize(&path).ok() else {
continue;
};
log::debug!("reloading git state for buffer {}", path.display());
let index_text = if current_index_text.is_some() {
local_repo
.repo()
.load_index_text(relative_path.clone())
.await
} else {
None
};
let head_text = if current_head_text.is_some() {
local_repo.repo().load_committed_text(relative_path).await
} else {
None
};
// Avoid triggering a diff update if the base text has not changed.
if let Some((current_index, current_head)) =
current_index_text.as_ref().zip(current_head_text.as_ref())
{
if current_index.as_deref() == index_text.as_ref()
&& current_head.as_deref() == head_text.as_ref()
{
continue;
}
}
let diff_bases_change =
match (current_index_text.is_some(), current_head_text.is_some()) {
(true, true) => Some(if index_text == head_text {
DiffBasesChange::SetBoth(head_text)
} else {
DiffBasesChange::SetEach {
index: index_text,
head: head_text,
}
}),
(true, false) => Some(DiffBasesChange::SetIndex(index_text)),
(false, true) => Some(DiffBasesChange::SetHead(head_text)),
(false, false) => None,
};
diff_bases_changes_by_buffer.push((
buffer,
diff_bases_change,
*hunk_staging_operation_count,
))
}
git_store
.update(&mut cx, |git_store, cx| {
for (buffer, diff_bases_change, hunk_staging_operation_count) in
diff_bases_changes_by_buffer
{
let Some(diff_state) =
git_store.diffs.get(&buffer.read(cx).remote_id())
else {
continue;
};
let Some(diff_bases_change) = diff_bases_change else {
continue;
};
let downstream_client = git_store.downstream_client();
diff_state.update(cx, |diff_state, cx| {
use proto::update_diff_bases::Mode;
let buffer = buffer.read(cx);
if let Some((client, project_id)) = downstream_client {
let (staged_text, committed_text, mode) =
match diff_bases_change.clone() {
DiffBasesChange::SetIndex(index) => {
(index, None, Mode::IndexOnly)
}
DiffBasesChange::SetHead(head) => {
(None, head, Mode::HeadOnly)
}
DiffBasesChange::SetEach { index, head } => {
(index, head, Mode::IndexAndHead)
}
DiffBasesChange::SetBoth(text) => {
(None, text, Mode::IndexMatchesHead)
}
};
let message = proto::UpdateDiffBases {
project_id: project_id.to_proto(),
buffer_id: buffer.remote_id().to_proto(),
staged_text,
committed_text,
mode: mode as i32,
};
client.send(message).log_err();
}
let _ = diff_state.diff_bases_changed(
buffer.text_snapshot(),
diff_bases_change,
hunk_staging_operation_count,
cx,
);
});
}
})
.ok();
},
);
}
}
pub fn repositories(&self) -> &HashMap<ProjectEntryId, Entity<Repository>> {
&self.repositories
}
pub fn status_for_buffer_id(&self, buffer_id: BufferId, cx: &App) -> Option<FileStatus> {
let (repo, path) = self.repository_and_path_for_buffer_id(buffer_id, cx)?;
let status = repo.read(cx).repository_entry.status_for_path(&path)?;
Some(status.status)
}
pub fn repository_and_path_for_buffer_id(
&self,
buffer_id: BufferId,
cx: &App,
) -> Option<(Entity<Repository>, RepoPath)> {
let buffer = self.buffer_store.read(cx).get(buffer_id)?;
let project_path = buffer.read(cx).project_path(cx)?;
self.repository_and_path_for_project_path(&project_path, cx)
}
pub fn repository_and_path_for_project_path(
&self,
path: &ProjectPath,
cx: &App,
) -> Option<(Entity<Repository>, RepoPath)> {
let abs_path = self.worktree_store.read(cx).absolutize(path, cx)?;
self.repositories
.values()
.filter_map(|repo_handle| {
let repo = repo_handle.read(cx);
let relative_path = repo.repository_entry.relativize_abs_path(&abs_path)?;
Some((repo_handle.clone(), relative_path))
})
.max_by_key(|(repo, _)| {
repo.read(cx)
.repository_entry
.work_directory_abs_path
.clone()
})
}
fn spawn_git_worker(cx: &mut Context<GitStore>) -> mpsc::UnboundedSender<GitJob> {
let (job_tx, mut job_rx) = mpsc::unbounded::<GitJob>();
cx.spawn(async move |_, cx| {
let mut jobs = VecDeque::new();
loop {
while let Ok(Some(next_job)) = job_rx.try_next() {
jobs.push_back(next_job);
}
if let Some(job) = jobs.pop_front() {
if let Some(current_key) = &job.key {
if jobs
.iter()
.any(|other_job| other_job.key.as_ref() == Some(current_key))
{
continue;
}
}
(job.job)(cx).await;
} else if let Some(job) = job_rx.next().await {
jobs.push_back(job);
} else {
break;
}
}
})
.detach();
job_tx
}
pub fn git_init(
&self,
path: Arc<Path>,
fallback_branch_name: String,
cx: &App,
) -> Task<Result<()>> {
match &self.state {
GitStoreState::Local { fs, .. } => {
let fs = fs.clone();
cx.background_executor()
.spawn(async move { fs.git_init(&path, fallback_branch_name) })
}
GitStoreState::Ssh {
upstream_client,
upstream_project_id: project_id,
..
}
| GitStoreState::Remote {
upstream_client,
project_id,
..
} => {
let client = upstream_client.clone();
let project_id = *project_id;
cx.background_executor().spawn(async move {
client
.request(proto::GitInit {
project_id: project_id.0,
abs_path: path.to_string_lossy().to_string(),
fallback_branch_name,
})
.await?;
Ok(())
})
}
}
}
async fn handle_update_repository(
this: Entity<Self>,
envelope: TypedEnvelope<proto::UpdateRepository>,
mut cx: AsyncApp,
) -> Result<()> {
this.update(&mut cx, |this, cx| {
let mut update = envelope.payload;
let work_directory_id = ProjectEntryId::from_proto(update.id);
let client = this
.upstream_client()
.context("no upstream client")?
.clone();
let repo = this
.repositories
.entry(work_directory_id)
.or_insert_with(|| {
let git_store = cx.weak_entity();
cx.new(|_| Repository {
commit_message_buffer: None,
git_store,
project_environment: None,
worktree_id: None,
repository_entry: RepositoryEntry {
work_directory_id,
current_branch: None,
statuses_by_path: Default::default(),
current_merge_conflicts: Default::default(),
work_directory_abs_path: update.abs_path.clone().into(),
worktree_scan_id: update.scan_id as usize,
},
merge_message: None,
completed_scan_id: update.scan_id as usize,
state: RepositoryState::Remote {
project_id: ProjectId(update.project_id),
client,
work_directory_id,
},
job_sender: this.update_sender.clone(),
askpass_delegates: Default::default(),
latest_askpass_id: 0,
})
});
repo.update(cx, |repo, _cx| repo.apply_remote_update(update.clone()))?;
cx.emit(GitEvent::GitStateUpdated);
this.active_repo_id.get_or_insert_with(|| {
cx.emit(GitEvent::ActiveRepositoryChanged);
work_directory_id
});
if let Some((client, project_id)) = this.downstream_client() {
update.project_id = project_id.to_proto();
client.send(update).log_err();
}
Ok(())
})?
}
async fn handle_remove_repository(
this: Entity<Self>,
envelope: TypedEnvelope<proto::RemoveRepository>,
mut cx: AsyncApp,
) -> Result<()> {
this.update(&mut cx, |this, cx| {
let mut update = envelope.payload;
let id = ProjectEntryId::from_proto(update.id);
this.repositories.remove(&id);
if let Some((client, project_id)) = this.downstream_client() {
update.project_id = project_id.to_proto();
client.send(update).log_err();
}
if this.active_repo_id == Some(id) {
this.active_repo_id = None;
cx.emit(GitEvent::ActiveRepositoryChanged);
}
cx.emit(GitEvent::GitStateUpdated);
})
}
async fn handle_git_init(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GitInit>,
cx: AsyncApp,
) -> Result<proto::Ack> {
let path: Arc<Path> = PathBuf::from(envelope.payload.abs_path).into();
let name = envelope.payload.fallback_branch_name;
cx.update(|cx| this.read(cx).git_init(path, name, cx))?
.await?;
Ok(proto::Ack {})
}
async fn handle_fetch(
this: Entity<Self>,
envelope: TypedEnvelope<proto::Fetch>,
mut cx: AsyncApp,
) -> Result<proto::RemoteMessageResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let askpass_id = envelope.payload.askpass_id;
let askpass = make_remote_delegate(
this,
envelope.payload.project_id,
work_directory_id,
askpass_id,
&mut cx,
);
let remote_output = repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.fetch(askpass, cx)
})?
.await??;
Ok(proto::RemoteMessageResponse {
stdout: remote_output.stdout,
stderr: remote_output.stderr,
})
}
async fn handle_push(
this: Entity<Self>,
envelope: TypedEnvelope<proto::Push>,
mut cx: AsyncApp,
) -> Result<proto::RemoteMessageResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let askpass_id = envelope.payload.askpass_id;
let askpass = make_remote_delegate(
this,
envelope.payload.project_id,
work_directory_id,
askpass_id,
&mut cx,
);
let options = envelope
.payload
.options
.as_ref()
.map(|_| match envelope.payload.options() {
proto::push::PushOptions::SetUpstream => git::repository::PushOptions::SetUpstream,
proto::push::PushOptions::Force => git::repository::PushOptions::Force,
});
let branch_name = envelope.payload.branch_name.into();
let remote_name = envelope.payload.remote_name.into();
let remote_output = repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.push(branch_name, remote_name, options, askpass, cx)
})?
.await??;
Ok(proto::RemoteMessageResponse {
stdout: remote_output.stdout,
stderr: remote_output.stderr,
})
}
async fn handle_pull(
this: Entity<Self>,
envelope: TypedEnvelope<proto::Pull>,
mut cx: AsyncApp,
) -> Result<proto::RemoteMessageResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let askpass_id = envelope.payload.askpass_id;
let askpass = make_remote_delegate(
this,
envelope.payload.project_id,
work_directory_id,
askpass_id,
&mut cx,
);
let branch_name = envelope.payload.branch_name.into();
let remote_name = envelope.payload.remote_name.into();
let remote_message = repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.pull(branch_name, remote_name, askpass, cx)
})?
.await??;
Ok(proto::RemoteMessageResponse {
stdout: remote_message.stdout,
stderr: remote_message.stderr,
})
}
async fn handle_stage(
this: Entity<Self>,
envelope: TypedEnvelope<proto::Stage>,
mut cx: AsyncApp,
) -> Result<proto::Ack> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let entries = envelope
.payload
.paths
.into_iter()
.map(PathBuf::from)
.map(RepoPath::new)
.collect();
repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.stage_entries(entries, cx)
})?
.await?;
Ok(proto::Ack {})
}
async fn handle_unstage(
this: Entity<Self>,
envelope: TypedEnvelope<proto::Unstage>,
mut cx: AsyncApp,
) -> Result<proto::Ack> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let entries = envelope
.payload
.paths
.into_iter()
.map(PathBuf::from)
.map(RepoPath::new)
.collect();
repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.unstage_entries(entries, cx)
})?
.await?;
Ok(proto::Ack {})
}
async fn handle_set_index_text(
this: Entity<Self>,
envelope: TypedEnvelope<proto::SetIndexText>,
mut cx: AsyncApp,
) -> Result<proto::Ack> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.spawn_set_index_text_job(
RepoPath::from_str(&envelope.payload.path),
envelope.payload.text,
cx,
)
})?
.await??;
Ok(proto::Ack {})
}
async fn handle_commit(
this: Entity<Self>,
envelope: TypedEnvelope<proto::Commit>,
mut cx: AsyncApp,
) -> Result<proto::Ack> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let message = SharedString::from(envelope.payload.message);
let name = envelope.payload.name.map(SharedString::from);
let email = envelope.payload.email.map(SharedString::from);
repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.commit(message, name.zip(email), cx)
})?
.await??;
Ok(proto::Ack {})
}
async fn handle_get_remotes(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GetRemotes>,
mut cx: AsyncApp,
) -> Result<proto::GetRemotesResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let branch_name = envelope.payload.branch_name;
let remotes = repository_handle
.update(&mut cx, |repository_handle, _| {
repository_handle.get_remotes(branch_name)
})?
.await??;
Ok(proto::GetRemotesResponse {
remotes: remotes
.into_iter()
.map(|remotes| proto::get_remotes_response::Remote {
name: remotes.name.to_string(),
})
.collect::<Vec<_>>(),
})
}
async fn handle_get_branches(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GitGetBranches>,
mut cx: AsyncApp,
) -> Result<proto::GitBranchesResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let branches = repository_handle
.update(&mut cx, |repository_handle, _| repository_handle.branches())?
.await??;
Ok(proto::GitBranchesResponse {
branches: branches
.into_iter()
.map(|branch| worktree::branch_to_proto(&branch))
.collect::<Vec<_>>(),
})
}
async fn handle_create_branch(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GitCreateBranch>,
mut cx: AsyncApp,
) -> Result<proto::Ack> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let branch_name = envelope.payload.branch_name;
repository_handle
.update(&mut cx, |repository_handle, _| {
repository_handle.create_branch(branch_name)
})?
.await??;
Ok(proto::Ack {})
}
async fn handle_change_branch(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GitChangeBranch>,
mut cx: AsyncApp,
) -> Result<proto::Ack> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let branch_name = envelope.payload.branch_name;
repository_handle
.update(&mut cx, |repository_handle, _| {
repository_handle.change_branch(branch_name)
})?
.await??;
Ok(proto::Ack {})
}
async fn handle_show(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GitShow>,
mut cx: AsyncApp,
) -> Result<proto::GitCommitDetails> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let commit = repository_handle
.update(&mut cx, |repository_handle, _| {
repository_handle.show(envelope.payload.commit)
})?
.await??;
Ok(proto::GitCommitDetails {
sha: commit.sha.into(),
message: commit.message.into(),
commit_timestamp: commit.commit_timestamp,
committer_email: commit.committer_email.into(),
committer_name: commit.committer_name.into(),
})
}
async fn handle_reset(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GitReset>,
mut cx: AsyncApp,
) -> Result<proto::Ack> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let mode = match envelope.payload.mode() {
git_reset::ResetMode::Soft => ResetMode::Soft,
git_reset::ResetMode::Mixed => ResetMode::Mixed,
};
repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.reset(envelope.payload.commit, mode, cx)
})?
.await??;
Ok(proto::Ack {})
}
async fn handle_checkout_files(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GitCheckoutFiles>,
mut cx: AsyncApp,
) -> Result<proto::Ack> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let paths = envelope
.payload
.paths
.iter()
.map(|s| RepoPath::from_str(s))
.collect();
repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.checkout_files(&envelope.payload.commit, paths, cx)
})?
.await??;
Ok(proto::Ack {})
}
async fn handle_open_commit_message_buffer(
this: Entity<Self>,
envelope: TypedEnvelope<proto::OpenCommitMessageBuffer>,
mut cx: AsyncApp,
) -> Result<proto::OpenBufferResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let buffer = repository
.update(&mut cx, |repository, cx| {
repository.open_commit_buffer(None, this.read(cx).buffer_store.clone(), cx)
})?
.await?;
let buffer_id = buffer.read_with(&cx, |buffer, _| buffer.remote_id())?;
this.update(&mut cx, |this, cx| {
this.buffer_store.update(cx, |buffer_store, cx| {
buffer_store
.create_buffer_for_peer(
&buffer,
envelope.original_sender_id.unwrap_or(envelope.sender_id),
cx,
)
.detach_and_log_err(cx);
})
})?;
Ok(proto::OpenBufferResponse {
buffer_id: buffer_id.to_proto(),
})
}
async fn handle_askpass(
this: Entity<Self>,
envelope: TypedEnvelope<proto::AskPassRequest>,
mut cx: AsyncApp,
) -> Result<proto::AskPassResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let delegates = cx.update(|cx| repository.read(cx).askpass_delegates.clone())?;
let Some(mut askpass) = delegates.lock().remove(&envelope.payload.askpass_id) else {
debug_panic!("no askpass found");
return Err(anyhow::anyhow!("no askpass found"));
};
let response = askpass.ask_password(envelope.payload.prompt).await?;
delegates
.lock()
.insert(envelope.payload.askpass_id, askpass);
Ok(proto::AskPassResponse { response })
}
async fn handle_check_for_pushed_commits(
this: Entity<Self>,
envelope: TypedEnvelope<proto::CheckForPushedCommits>,
mut cx: AsyncApp,
) -> Result<proto::CheckForPushedCommitsResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let branches = repository_handle
.update(&mut cx, |repository_handle, _| {
repository_handle.check_for_pushed_commits()
})?
.await??;
Ok(proto::CheckForPushedCommitsResponse {
pushed_to: branches
.into_iter()
.map(|commit| commit.to_string())
.collect(),
})
}
async fn handle_git_diff(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GitDiff>,
mut cx: AsyncApp,
) -> Result<proto::GitDiffResponse> {
let work_directory_id = ProjectEntryId::from_proto(envelope.payload.work_directory_id);
let repository_handle = Self::repository_for_request(&this, work_directory_id, &mut cx)?;
let diff_type = match envelope.payload.diff_type() {
proto::git_diff::DiffType::HeadToIndex => DiffType::HeadToIndex,
proto::git_diff::DiffType::HeadToWorktree => DiffType::HeadToWorktree,
};
let mut diff = repository_handle
.update(&mut cx, |repository_handle, cx| {
repository_handle.diff(diff_type, cx)
})?
.await??;
const ONE_MB: usize = 1_000_000;
if diff.len() > ONE_MB {
diff = diff.chars().take(ONE_MB).collect()
}
Ok(proto::GitDiffResponse { diff })
}
async fn handle_open_unstaged_diff(
this: Entity<Self>,
request: TypedEnvelope<proto::OpenUnstagedDiff>,
mut cx: AsyncApp,
) -> Result<proto::OpenUnstagedDiffResponse> {
let buffer_id = BufferId::new(request.payload.buffer_id)?;
let diff = this
.update(&mut cx, |this, cx| {
let buffer = this.buffer_store.read(cx).get(buffer_id)?;
Some(this.open_unstaged_diff(buffer, cx))
})?
.ok_or_else(|| anyhow!("no such buffer"))?
.await?;
this.update(&mut cx, |this, _| {
let shared_diffs = this
.shared_diffs
.entry(request.original_sender_id.unwrap_or(request.sender_id))
.or_default();
shared_diffs.entry(buffer_id).or_default().unstaged = Some(diff.clone());
})?;
let staged_text = diff.read_with(&cx, |diff, _| diff.base_text_string())?;
Ok(proto::OpenUnstagedDiffResponse { staged_text })
}
async fn handle_open_uncommitted_diff(
this: Entity<Self>,
request: TypedEnvelope<proto::OpenUncommittedDiff>,
mut cx: AsyncApp,
) -> Result<proto::OpenUncommittedDiffResponse> {
let buffer_id = BufferId::new(request.payload.buffer_id)?;
let diff = this
.update(&mut cx, |this, cx| {
let buffer = this.buffer_store.read(cx).get(buffer_id)?;
Some(this.open_uncommitted_diff(buffer, cx))
})?
.ok_or_else(|| anyhow!("no such buffer"))?
.await?;
this.update(&mut cx, |this, _| {
let shared_diffs = this
.shared_diffs
.entry(request.original_sender_id.unwrap_or(request.sender_id))
.or_default();
shared_diffs.entry(buffer_id).or_default().uncommitted = Some(diff.clone());
})?;
diff.read_with(&cx, |diff, cx| {
use proto::open_uncommitted_diff_response::Mode;
let unstaged_diff = diff.secondary_diff();
let index_snapshot = unstaged_diff.and_then(|diff| {
let diff = diff.read(cx);
diff.base_text_exists().then(|| diff.base_text())
});
let mode;
let staged_text;
let committed_text;
if diff.base_text_exists() {
let committed_snapshot = diff.base_text();
committed_text = Some(committed_snapshot.text());
if let Some(index_text) = index_snapshot {
if index_text.remote_id() == committed_snapshot.remote_id() {
mode = Mode::IndexMatchesHead;
staged_text = None;
} else {
mode = Mode::IndexAndHead;
staged_text = Some(index_text.text());
}
} else {
mode = Mode::IndexAndHead;
staged_text = None;
}
} else {
mode = Mode::IndexAndHead;
committed_text = None;
staged_text = index_snapshot.as_ref().map(|buffer| buffer.text());
}
proto::OpenUncommittedDiffResponse {
committed_text,
staged_text,
mode: mode.into(),
}
})
}
async fn handle_update_diff_bases(
this: Entity<Self>,
request: TypedEnvelope<proto::UpdateDiffBases>,
mut cx: AsyncApp,
) -> Result<()> {
let buffer_id = BufferId::new(request.payload.buffer_id)?;
this.update(&mut cx, |this, cx| {
if let Some(diff_state) = this.diffs.get_mut(&buffer_id) {
if let Some(buffer) = this.buffer_store.read(cx).get(buffer_id) {
let buffer = buffer.read(cx).text_snapshot();
diff_state.update(cx, |diff_state, cx| {
diff_state.handle_base_texts_updated(buffer, request.payload, cx);
})
}
}
})
}
async fn handle_blame_buffer(
this: Entity<Self>,
envelope: TypedEnvelope<proto::BlameBuffer>,
mut cx: AsyncApp,
) -> Result<proto::BlameBufferResponse> {
let buffer_id = BufferId::new(envelope.payload.buffer_id)?;
let version = deserialize_version(&envelope.payload.version);
let buffer = this.read_with(&cx, |this, cx| {
this.buffer_store.read(cx).get_existing(buffer_id)
})??;
buffer
.update(&mut cx, |buffer, _| {
buffer.wait_for_version(version.clone())
})?
.await?;
let blame = this
.update(&mut cx, |this, cx| {
this.blame_buffer(&buffer, Some(version), cx)
})?
.await?;
Ok(serialize_blame_buffer_response(blame))
}
async fn handle_get_permalink_to_line(
this: Entity<Self>,
envelope: TypedEnvelope<proto::GetPermalinkToLine>,
mut cx: AsyncApp,
) -> Result<proto::GetPermalinkToLineResponse> {
let buffer_id = BufferId::new(envelope.payload.buffer_id)?;
// let version = deserialize_version(&envelope.payload.version);
let selection = {
let proto_selection = envelope
.payload
.selection
.context("no selection to get permalink for defined")?;
proto_selection.start as u32..proto_selection.end as u32
};
let buffer = this.read_with(&cx, |this, cx| {
this.buffer_store.read(cx).get_existing(buffer_id)
})??;
let permalink = this
.update(&mut cx, |this, cx| {
this.get_permalink_to_line(&buffer, selection, cx)
})?
.await?;
Ok(proto::GetPermalinkToLineResponse {
permalink: permalink.to_string(),
})
}
fn repository_for_request(
this: &Entity<Self>,
work_directory_id: ProjectEntryId,
cx: &mut AsyncApp,
) -> Result<Entity<Repository>> {
this.update(cx, |this, cx| {
this.repositories
.values()
.find(|repository_handle| {
repository_handle
.read(cx)
.repository_entry
.work_directory_id()
== work_directory_id
})
.context("missing repository handle")
.cloned()
})?
}
pub fn repo_snapshots(&self, cx: &App) -> HashMap<ProjectEntryId, RepositoryEntry> {
self.repositories
.iter()
.map(|(id, repo)| (*id, repo.read(cx).repository_entry.clone()))
.collect()
}
}
impl BufferDiffState {
fn buffer_language_changed(&mut self, buffer: Entity<Buffer>, cx: &mut Context<Self>) {
self.language = buffer.read(cx).language().cloned();
self.language_changed = true;
let _ = self.recalculate_diffs(
buffer.read(cx).text_snapshot(),
self.hunk_staging_operation_count,
cx,
);
}
fn unstaged_diff(&self) -> Option<Entity<BufferDiff>> {
self.unstaged_diff.as_ref().and_then(|set| set.upgrade())
}
fn uncommitted_diff(&self) -> Option<Entity<BufferDiff>> {
self.uncommitted_diff.as_ref().and_then(|set| set.upgrade())
}
fn handle_base_texts_updated(
&mut self,
buffer: text::BufferSnapshot,
message: proto::UpdateDiffBases,
cx: &mut Context<Self>,
) {
use proto::update_diff_bases::Mode;
let Some(mode) = Mode::from_i32(message.mode) else {
return;
};
let diff_bases_change = match mode {
Mode::HeadOnly => DiffBasesChange::SetHead(message.committed_text),
Mode::IndexOnly => DiffBasesChange::SetIndex(message.staged_text),
Mode::IndexMatchesHead => DiffBasesChange::SetBoth(message.committed_text),
Mode::IndexAndHead => DiffBasesChange::SetEach {
index: message.staged_text,
head: message.committed_text,
},
};
let _ = self.diff_bases_changed(
buffer,
diff_bases_change,
self.hunk_staging_operation_count,
cx,
);
}
pub fn wait_for_recalculation(&mut self) -> Option<oneshot::Receiver<()>> {
if self.diff_updated_futures.is_empty() {
return None;
}
let (tx, rx) = oneshot::channel();
self.diff_updated_futures.push(tx);
Some(rx)
}
fn diff_bases_changed(
&mut self,
buffer: text::BufferSnapshot,
diff_bases_change: DiffBasesChange,
prev_hunk_staging_operation_count: usize,
cx: &mut Context<Self>,
) -> oneshot::Receiver<()> {
match diff_bases_change {
DiffBasesChange::SetIndex(index) => {
self.index_text = index.map(|mut index| {
text::LineEnding::normalize(&mut index);
Arc::new(index)
});
self.index_changed = true;
}
DiffBasesChange::SetHead(head) => {
self.head_text = head.map(|mut head| {
text::LineEnding::normalize(&mut head);
Arc::new(head)
});
self.head_changed = true;
}
DiffBasesChange::SetBoth(text) => {
let text = text.map(|mut text| {
text::LineEnding::normalize(&mut text);
Arc::new(text)
});
self.head_text = text.clone();
self.index_text = text;
self.head_changed = true;
self.index_changed = true;
}
DiffBasesChange::SetEach { index, head } => {
self.index_text = index.map(|mut index| {
text::LineEnding::normalize(&mut index);
Arc::new(index)
});
self.index_changed = true;
self.head_text = head.map(|mut head| {
text::LineEnding::normalize(&mut head);
Arc::new(head)
});
self.head_changed = true;
}
}
self.recalculate_diffs(buffer, prev_hunk_staging_operation_count, cx)
}
fn recalculate_diffs(
&mut self,
buffer: text::BufferSnapshot,
prev_hunk_staging_operation_count: usize,
cx: &mut Context<Self>,
) -> oneshot::Receiver<()> {
log::debug!("recalculate diffs");
let (tx, rx) = oneshot::channel();
self.diff_updated_futures.push(tx);
let language = self.language.clone();
let language_registry = self.language_registry.clone();
let unstaged_diff = self.unstaged_diff();
let uncommitted_diff = self.uncommitted_diff();
let head = self.head_text.clone();
let index = self.index_text.clone();
let index_changed = self.index_changed;
let head_changed = self.head_changed;
let language_changed = self.language_changed;
let index_matches_head = match (self.index_text.as_ref(), self.head_text.as_ref()) {
(Some(index), Some(head)) => Arc::ptr_eq(index, head),
(None, None) => true,
_ => false,
};
self.recalculate_diff_task = Some(cx.spawn(async move |this, cx| {
let mut new_unstaged_diff = None;
if let Some(unstaged_diff) = &unstaged_diff {
new_unstaged_diff = Some(
BufferDiff::update_diff(
unstaged_diff.clone(),
buffer.clone(),
index,
index_changed,
language_changed,
language.clone(),
language_registry.clone(),
cx,
)
.await?,
);
}
let mut new_uncommitted_diff = None;
if let Some(uncommitted_diff) = &uncommitted_diff {
new_uncommitted_diff = if index_matches_head {
new_unstaged_diff.clone()
} else {
Some(
BufferDiff::update_diff(
uncommitted_diff.clone(),
buffer.clone(),
head,
head_changed,
language_changed,
language.clone(),
language_registry.clone(),
cx,
)
.await?,
)
}
}
if this.update(cx, |this, _| {
this.hunk_staging_operation_count > prev_hunk_staging_operation_count
})? {
return Ok(());
}
let unstaged_changed_range = if let Some((unstaged_diff, new_unstaged_diff)) =
unstaged_diff.as_ref().zip(new_unstaged_diff.clone())
{
unstaged_diff.update(cx, |diff, cx| {
diff.set_snapshot(&buffer, new_unstaged_diff, language_changed, None, cx)
})?
} else {
None
};
if let Some((uncommitted_diff, new_uncommitted_diff)) =
uncommitted_diff.as_ref().zip(new_uncommitted_diff.clone())
{
uncommitted_diff.update(cx, |uncommitted_diff, cx| {
uncommitted_diff.set_snapshot(
&buffer,
new_uncommitted_diff,
language_changed,
unstaged_changed_range,
cx,
);
})?;
}
if let Some(this) = this.upgrade() {
this.update(cx, |this, _| {
this.index_changed = false;
this.head_changed = false;
this.language_changed = false;
for tx in this.diff_updated_futures.drain(..) {
tx.send(()).ok();
}
})?;
}
Ok(())
}));
rx
}
}
fn make_remote_delegate(
this: Entity<GitStore>,
project_id: u64,
work_directory_id: ProjectEntryId,
askpass_id: u64,
cx: &mut AsyncApp,
) -> AskPassDelegate {
AskPassDelegate::new(cx, move |prompt, tx, cx| {
this.update(cx, |this, cx| {
let Some((client, _)) = this.downstream_client() else {
return;
};
let response = client.request(proto::AskPassRequest {
project_id,
work_directory_id: work_directory_id.to_proto(),
askpass_id,
prompt,
});
cx.spawn(async move |_, _| {
tx.send(response.await?.response).ok();
anyhow::Ok(())
})
.detach_and_log_err(cx);
})
.log_err();
})
}
impl GitStoreState {
fn load_staged_text(
&self,
buffer: &Entity<Buffer>,
buffer_store: &Entity<BufferStore>,
cx: &App,
) -> Task<Result<Option<String>>> {
match self {
GitStoreState::Local { .. } => {
if let Some((worktree, path)) =
buffer_store.read(cx).worktree_for_buffer(buffer, cx)
{
worktree.read(cx).load_staged_file(path.as_ref(), cx)
} else {
return Task::ready(Err(anyhow!("no such worktree")));
}
}
GitStoreState::Ssh {
upstream_client,
upstream_project_id: project_id,
..
}
| GitStoreState::Remote {
upstream_client,
project_id,
} => {
let buffer_id = buffer.read(cx).remote_id();
let project_id = *project_id;
let client = upstream_client.clone();
cx.background_spawn(async move {
let response = client
.request(proto::OpenUnstagedDiff {
project_id: project_id.to_proto(),
buffer_id: buffer_id.to_proto(),
})
.await?;
Ok(response.staged_text)
})
}
}
}
fn load_committed_text(
&self,
buffer: &Entity<Buffer>,
buffer_store: &Entity<BufferStore>,
cx: &App,
) -> Task<Result<DiffBasesChange>> {
match self {
GitStoreState::Local { .. } => {
if let Some((worktree, path)) =
buffer_store.read(cx).worktree_for_buffer(buffer, cx)
{
let worktree = worktree.read(cx);
let committed_text = worktree.load_committed_file(&path, cx);
let staged_text = worktree.load_staged_file(&path, cx);
cx.background_spawn(async move {
let committed_text = committed_text.await?;
let staged_text = staged_text.await?;
let diff_bases_change = if committed_text == staged_text {
DiffBasesChange::SetBoth(committed_text)
} else {
DiffBasesChange::SetEach {
index: staged_text,
head: committed_text,
}
};
Ok(diff_bases_change)
})
} else {
Task::ready(Err(anyhow!("no such worktree")))
}
}
GitStoreState::Ssh {
upstream_client,
upstream_project_id: project_id,
..
}
| GitStoreState::Remote {
upstream_client,
project_id,
} => {
use proto::open_uncommitted_diff_response::Mode;
let buffer_id = buffer.read(cx).remote_id();
let project_id = *project_id;
let client = upstream_client.clone();
cx.background_spawn(async move {
let response = client
.request(proto::OpenUncommittedDiff {
project_id: project_id.to_proto(),
buffer_id: buffer_id.to_proto(),
})
.await?;
let mode =
Mode::from_i32(response.mode).ok_or_else(|| anyhow!("Invalid mode"))?;
let bases = match mode {
Mode::IndexMatchesHead => DiffBasesChange::SetBoth(response.committed_text),
Mode::IndexAndHead => DiffBasesChange::SetEach {
head: response.committed_text,
index: response.staged_text,
},
};
Ok(bases)
})
}
}
}
}
impl Repository {
pub fn git_store(&self) -> Option<Entity<GitStore>> {
self.git_store.upgrade()
}
fn id(&self) -> ProjectEntryId {
self.repository_entry.work_directory_id()
}
pub fn current_branch(&self) -> Option<&Branch> {
self.repository_entry.branch()
}
pub fn status_for_path(&self, path: &RepoPath) -> Option<StatusEntry> {
self.repository_entry.status_for_path(path)
}
fn send_job<F, Fut, R>(&self, job: F) -> oneshot::Receiver<R>
where
F: FnOnce(RepositoryState, AsyncApp) -> Fut + 'static,
Fut: Future<Output = R> + 'static,
R: Send + 'static,
{
self.send_keyed_job(None, job)
}
fn send_keyed_job<F, Fut, R>(&self, key: Option<GitJobKey>, job: F) -> oneshot::Receiver<R>
where
F: FnOnce(RepositoryState, AsyncApp) -> Fut + 'static,
Fut: Future<Output = R> + 'static,
R: Send + 'static,
{
let (result_tx, result_rx) = futures::channel::oneshot::channel();
let git_repo = self.state.clone();
self.job_sender
.unbounded_send(GitJob {
key,
job: Box::new(|cx: &mut AsyncApp| {
let job = job(git_repo, cx.clone());
cx.spawn(async move |_| {
let result = job.await;
result_tx.send(result).ok();
})
}),
})
.ok();
result_rx
}
/// This is the name that will be displayed in the repository selector for this repository.
pub fn display_name(&self) -> SharedString {
self.repository_entry
.work_directory_abs_path
.file_name()
.unwrap_or_default()
.to_string_lossy()
.to_string()
.into()
}
pub fn set_as_active_repository(&self, cx: &mut Context<Self>) {
let Some(git_store) = self.git_store.upgrade() else {
return;
};
let entity = cx.entity();
git_store.update(cx, |git_store, cx| {
let Some((&id, _)) = git_store
.repositories
.iter()
.find(|(_, handle)| *handle == &entity)
else {
return;
};
git_store.active_repo_id = Some(id);
cx.emit(GitEvent::ActiveRepositoryChanged);
});
}
pub fn status(&self) -> impl '_ + Iterator<Item = StatusEntry> {
self.repository_entry.status()
}
pub fn has_conflict(&self, path: &RepoPath) -> bool {
self.repository_entry
.current_merge_conflicts
.contains(&path)
}
pub fn repo_path_to_project_path(&self, path: &RepoPath, cx: &App) -> Option<ProjectPath> {
let git_store = self.git_store.upgrade()?;
let worktree_store = git_store.read(cx).worktree_store.read(cx);
let abs_path = self.repository_entry.work_directory_abs_path.join(&path.0);
let (worktree, relative_path) = worktree_store.find_worktree(abs_path, cx)?;
Some(ProjectPath {
worktree_id: worktree.read(cx).id(),
path: relative_path.into(),
})
}
pub fn project_path_to_repo_path(&self, path: &ProjectPath, cx: &App) -> Option<RepoPath> {
let git_store = self.git_store.upgrade()?;
let worktree_store = git_store.read(cx).worktree_store.read(cx);
let abs_path = worktree_store.absolutize(path, cx)?;
self.repository_entry.relativize_abs_path(&abs_path)
}
pub fn contains_sub_repo(&self, other: &Entity<Self>, cx: &App) -> bool {
other
.read(cx)
.repository_entry
.work_directory_abs_path
.starts_with(&self.repository_entry.work_directory_abs_path)
}
pub fn local_repository(&self) -> Option<Arc<dyn GitRepository>> {
match &self.state {
RepositoryState::Local(git_repository) => Some(git_repository.clone()),
RepositoryState::Remote { .. } => None,
}
}
pub fn open_commit_buffer(
&mut self,
languages: Option<Arc<LanguageRegistry>>,
buffer_store: Entity<BufferStore>,
cx: &mut Context<Self>,
) -> Task<Result<Entity<Buffer>>> {
if let Some(buffer) = self.commit_message_buffer.clone() {
return Task::ready(Ok(buffer));
}
if let RepositoryState::Remote {
project_id,
client,
work_directory_id,
} = self.state.clone()
{
let client = client.clone();
cx.spawn(async move |repository, cx| {
let request = client.request(proto::OpenCommitMessageBuffer {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
});
let response = request.await.context("requesting to open commit buffer")?;
let buffer_id = BufferId::new(response.buffer_id)?;
let buffer = buffer_store
.update(cx, |buffer_store, cx| {
buffer_store.wait_for_remote_buffer(buffer_id, cx)
})?
.await?;
if let Some(language_registry) = languages {
let git_commit_language =
language_registry.language_for_name("Git Commit").await?;
buffer.update(cx, |buffer, cx| {
buffer.set_language(Some(git_commit_language), cx);
})?;
}
repository.update(cx, |repository, _| {
repository.commit_message_buffer = Some(buffer.clone());
})?;
Ok(buffer)
})
} else {
self.open_local_commit_buffer(languages, buffer_store, cx)
}
}
fn open_local_commit_buffer(
&mut self,
language_registry: Option<Arc<LanguageRegistry>>,
buffer_store: Entity<BufferStore>,
cx: &mut Context<Self>,
) -> Task<Result<Entity<Buffer>>> {
cx.spawn(async move |repository, cx| {
let buffer = buffer_store
.update(cx, |buffer_store, cx| buffer_store.create_buffer(cx))?
.await?;
if let Some(language_registry) = language_registry {
let git_commit_language = language_registry.language_for_name("Git Commit").await?;
buffer.update(cx, |buffer, cx| {
buffer.set_language(Some(git_commit_language), cx);
})?;
}
repository.update(cx, |repository, _| {
repository.commit_message_buffer = Some(buffer.clone());
})?;
Ok(buffer)
})
}
pub fn checkout_files(
&self,
commit: &str,
paths: Vec<RepoPath>,
cx: &mut App,
) -> oneshot::Receiver<Result<()>> {
let commit = commit.to_string();
let env = self.worktree_environment(cx);
self.send_job(|git_repo, _| async move {
match git_repo {
RepositoryState::Local(repo) => repo.checkout_files(commit, paths, env.await).await,
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
client
.request(proto::GitCheckoutFiles {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
commit,
paths: paths
.into_iter()
.map(|p| p.to_string_lossy().to_string())
.collect(),
})
.await?;
Ok(())
}
}
})
}
pub fn reset(
&self,
commit: String,
reset_mode: ResetMode,
cx: &mut App,
) -> oneshot::Receiver<Result<()>> {
let commit = commit.to_string();
let env = self.worktree_environment(cx);
self.send_job(|git_repo, _| async move {
match git_repo {
RepositoryState::Local(git_repo) => {
let env = env.await;
git_repo.reset(commit, reset_mode, env).await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
client
.request(proto::GitReset {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
commit,
mode: match reset_mode {
ResetMode::Soft => git_reset::ResetMode::Soft.into(),
ResetMode::Mixed => git_reset::ResetMode::Mixed.into(),
},
})
.await?;
Ok(())
}
}
})
}
pub fn show(&self, commit: String) -> oneshot::Receiver<Result<CommitDetails>> {
self.send_job(|git_repo, _cx| async move {
match git_repo {
RepositoryState::Local(git_repository) => git_repository.show(commit).await,
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
let resp = client
.request(proto::GitShow {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
commit,
})
.await?;
Ok(CommitDetails {
sha: resp.sha.into(),
message: resp.message.into(),
commit_timestamp: resp.commit_timestamp,
committer_email: resp.committer_email.into(),
committer_name: resp.committer_name.into(),
})
}
}
})
}
fn buffer_store(&self, cx: &App) -> Option<Entity<BufferStore>> {
Some(self.git_store.upgrade()?.read(cx).buffer_store.clone())
}
pub fn stage_entries(
&self,
entries: Vec<RepoPath>,
cx: &mut Context<Self>,
) -> Task<anyhow::Result<()>> {
if entries.is_empty() {
return Task::ready(Ok(()));
}
let env = self.worktree_environment(cx);
let mut save_futures = Vec::new();
if let Some(buffer_store) = self.buffer_store(cx) {
buffer_store.update(cx, |buffer_store, cx| {
for path in &entries {
let Some(project_path) = self.repo_path_to_project_path(path, cx) else {
continue;
};
if let Some(buffer) = buffer_store.get_by_path(&project_path, cx) {
if buffer
.read(cx)
.file()
.map_or(false, |file| file.disk_state().exists())
{
save_futures.push(buffer_store.save_buffer(buffer, cx));
}
}
}
})
}
cx.spawn(async move |this, cx| {
for save_future in save_futures {
save_future.await?;
}
let env = env.await;
this.update(cx, |this, _| {
this.send_job(|git_repo, _cx| async move {
match git_repo {
RepositoryState::Local(repo) => repo.stage_paths(entries, env).await,
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
client
.request(proto::Stage {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
paths: entries
.into_iter()
.map(|repo_path| repo_path.as_ref().to_proto())
.collect(),
})
.await
.context("sending stage request")?;
Ok(())
}
}
})
})?
.await??;
Ok(())
})
}
pub fn unstage_entries(
&self,
entries: Vec<RepoPath>,
cx: &mut Context<Self>,
) -> Task<anyhow::Result<()>> {
if entries.is_empty() {
return Task::ready(Ok(()));
}
let env = self.worktree_environment(cx);
let mut save_futures = Vec::new();
if let Some(buffer_store) = self.buffer_store(cx) {
buffer_store.update(cx, |buffer_store, cx| {
for path in &entries {
let Some(project_path) = self.repo_path_to_project_path(path, cx) else {
continue;
};
if let Some(buffer) = buffer_store.get_by_path(&project_path, cx) {
if buffer
.read(cx)
.file()
.map_or(false, |file| file.disk_state().exists())
{
save_futures.push(buffer_store.save_buffer(buffer, cx));
}
}
}
})
}
cx.spawn(async move |this, cx| {
for save_future in save_futures {
save_future.await?;
}
let env = env.await;
this.update(cx, |this, _| {
this.send_job(|git_repo, _cx| async move {
match git_repo {
RepositoryState::Local(repo) => repo.unstage_paths(entries, env).await,
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
client
.request(proto::Unstage {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
paths: entries
.into_iter()
.map(|repo_path| repo_path.as_ref().to_proto())
.collect(),
})
.await
.context("sending unstage request")?;
Ok(())
}
}
})
})?
.await??;
Ok(())
})
}
pub fn stage_all(&self, cx: &mut Context<Self>) -> Task<anyhow::Result<()>> {
let to_stage = self
.repository_entry
.status()
.filter(|entry| !entry.status.staging().is_fully_staged())
.map(|entry| entry.repo_path.clone())
.collect();
self.stage_entries(to_stage, cx)
}
pub fn unstage_all(&self, cx: &mut Context<Self>) -> Task<anyhow::Result<()>> {
let to_unstage = self
.repository_entry
.status()
.filter(|entry| entry.status.staging().has_staged())
.map(|entry| entry.repo_path.clone())
.collect();
self.unstage_entries(to_unstage, cx)
}
/// Get a count of all entries in the active repository, including
/// untracked files.
pub fn entry_count(&self) -> usize {
self.repository_entry.status_len()
}
fn worktree_environment(
&self,
cx: &mut App,
) -> impl Future<Output = HashMap<String, String>> + 'static {
let task = self.project_environment.as_ref().and_then(|env| {
env.update(cx, |env, cx| {
env.get_environment(
self.worktree_id,
Some(
self.repository_entry
.work_directory_abs_path
.as_path()
.into(),
),
cx,
)
})
.ok()
});
async move { OptionFuture::from(task).await.flatten().unwrap_or_default() }
}
pub fn commit(
&self,
message: SharedString,
name_and_email: Option<(SharedString, SharedString)>,
cx: &mut App,
) -> oneshot::Receiver<Result<()>> {
let env = self.worktree_environment(cx);
self.send_job(|git_repo, _cx| async move {
match git_repo {
RepositoryState::Local(repo) => {
let env = env.await;
repo.commit(message, name_and_email, env).await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
let (name, email) = name_and_email.unzip();
client
.request(proto::Commit {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
message: String::from(message),
name: name.map(String::from),
email: email.map(String::from),
})
.await
.context("sending commit request")?;
Ok(())
}
}
})
}
pub fn fetch(
&mut self,
askpass: AskPassDelegate,
cx: &mut App,
) -> oneshot::Receiver<Result<RemoteCommandOutput>> {
let executor = cx.background_executor().clone();
let askpass_delegates = self.askpass_delegates.clone();
let askpass_id = util::post_inc(&mut self.latest_askpass_id);
let env = self.worktree_environment(cx);
self.send_job(move |git_repo, cx| async move {
match git_repo {
RepositoryState::Local(git_repository) => {
let askpass = AskPassSession::new(&executor, askpass).await?;
let env = env.await;
git_repository.fetch(askpass, env, cx).await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
askpass_delegates.lock().insert(askpass_id, askpass);
let _defer = util::defer(|| {
let askpass_delegate = askpass_delegates.lock().remove(&askpass_id);
debug_assert!(askpass_delegate.is_some());
});
let response = client
.request(proto::Fetch {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
askpass_id,
})
.await
.context("sending fetch request")?;
Ok(RemoteCommandOutput {
stdout: response.stdout,
stderr: response.stderr,
})
}
}
})
}
pub fn push(
&mut self,
branch: SharedString,
remote: SharedString,
options: Option<PushOptions>,
askpass: AskPassDelegate,
cx: &mut App,
) -> oneshot::Receiver<Result<RemoteCommandOutput>> {
let executor = cx.background_executor().clone();
let askpass_delegates = self.askpass_delegates.clone();
let askpass_id = util::post_inc(&mut self.latest_askpass_id);
let env = self.worktree_environment(cx);
self.send_job(move |git_repo, cx| async move {
match git_repo {
RepositoryState::Local(git_repository) => {
let env = env.await;
let askpass = AskPassSession::new(&executor, askpass).await?;
git_repository
.push(
branch.to_string(),
remote.to_string(),
options,
askpass,
env,
cx,
)
.await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
askpass_delegates.lock().insert(askpass_id, askpass);
let _defer = util::defer(|| {
let askpass_delegate = askpass_delegates.lock().remove(&askpass_id);
debug_assert!(askpass_delegate.is_some());
});
let response = client
.request(proto::Push {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
askpass_id,
branch_name: branch.to_string(),
remote_name: remote.to_string(),
options: options.map(|options| match options {
PushOptions::Force => proto::push::PushOptions::Force,
PushOptions::SetUpstream => proto::push::PushOptions::SetUpstream,
} as i32),
})
.await
.context("sending push request")?;
Ok(RemoteCommandOutput {
stdout: response.stdout,
stderr: response.stderr,
})
}
}
})
}
pub fn pull(
&mut self,
branch: SharedString,
remote: SharedString,
askpass: AskPassDelegate,
cx: &mut App,
) -> oneshot::Receiver<Result<RemoteCommandOutput>> {
let executor = cx.background_executor().clone();
let askpass_delegates = self.askpass_delegates.clone();
let askpass_id = util::post_inc(&mut self.latest_askpass_id);
let env = self.worktree_environment(cx);
self.send_job(move |git_repo, cx| async move {
match git_repo {
RepositoryState::Local(git_repository) => {
let askpass = AskPassSession::new(&executor, askpass).await?;
let env = env.await;
git_repository
.pull(branch.to_string(), remote.to_string(), askpass, env, cx)
.await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
askpass_delegates.lock().insert(askpass_id, askpass);
let _defer = util::defer(|| {
let askpass_delegate = askpass_delegates.lock().remove(&askpass_id);
debug_assert!(askpass_delegate.is_some());
});
let response = client
.request(proto::Pull {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
askpass_id,
branch_name: branch.to_string(),
remote_name: remote.to_string(),
})
.await
.context("sending pull request")?;
Ok(RemoteCommandOutput {
stdout: response.stdout,
stderr: response.stderr,
})
}
}
})
}
fn spawn_set_index_text_job(
&self,
path: RepoPath,
content: Option<String>,
cx: &mut App,
) -> oneshot::Receiver<anyhow::Result<()>> {
let env = self.worktree_environment(cx);
self.send_keyed_job(
Some(GitJobKey::WriteIndex(path.clone())),
|git_repo, _cx| async {
match git_repo {
RepositoryState::Local(repo) => {
repo.set_index_text(path, content, env.await).await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
client
.request(proto::SetIndexText {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
path: path.as_ref().to_proto(),
text: content,
})
.await?;
Ok(())
}
}
},
)
}
pub fn get_remotes(
&self,
branch_name: Option<String>,
) -> oneshot::Receiver<Result<Vec<Remote>>> {
self.send_job(|repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => {
git_repository.get_remotes(branch_name).await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
let response = client
.request(proto::GetRemotes {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
branch_name,
})
.await?;
let remotes = response
.remotes
.into_iter()
.map(|remotes| git::repository::Remote {
name: remotes.name.into(),
})
.collect();
Ok(remotes)
}
}
})
}
pub fn branch(&self) -> Option<&Branch> {
self.repository_entry.branch()
}
pub fn branches(&self) -> oneshot::Receiver<Result<Vec<Branch>>> {
self.send_job(|repo, cx| async move {
match repo {
RepositoryState::Local(git_repository) => {
let git_repository = git_repository.clone();
cx.background_spawn(async move { git_repository.branches().await })
.await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
let response = client
.request(proto::GitGetBranches {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
})
.await?;
let branches = response
.branches
.into_iter()
.map(|branch| worktree::proto_to_branch(&branch))
.collect();
Ok(branches)
}
}
})
}
pub fn diff(&self, diff_type: DiffType, _cx: &App) -> oneshot::Receiver<Result<String>> {
self.send_job(|repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => git_repository.diff(diff_type).await,
RepositoryState::Remote {
project_id,
client,
work_directory_id,
..
} => {
let response = client
.request(proto::GitDiff {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
diff_type: match diff_type {
DiffType::HeadToIndex => {
proto::git_diff::DiffType::HeadToIndex.into()
}
DiffType::HeadToWorktree => {
proto::git_diff::DiffType::HeadToWorktree.into()
}
},
})
.await?;
Ok(response.diff)
}
}
})
}
pub fn create_branch(&self, branch_name: String) -> oneshot::Receiver<Result<()>> {
self.send_job(|repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => {
git_repository.create_branch(branch_name).await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
client
.request(proto::GitCreateBranch {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
branch_name,
})
.await?;
Ok(())
}
}
})
}
pub fn change_branch(&self, branch_name: String) -> oneshot::Receiver<Result<()>> {
self.send_job(|repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => {
git_repository.change_branch(branch_name).await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
client
.request(proto::GitChangeBranch {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
branch_name,
})
.await?;
Ok(())
}
}
})
}
pub fn check_for_pushed_commits(&self) -> oneshot::Receiver<Result<Vec<SharedString>>> {
self.send_job(|repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => {
git_repository.check_for_pushed_commit().await
}
RepositoryState::Remote {
project_id,
client,
work_directory_id,
} => {
let response = client
.request(proto::CheckForPushedCommits {
project_id: project_id.0,
work_directory_id: work_directory_id.to_proto(),
})
.await?;
let branches = response.pushed_to.into_iter().map(Into::into).collect();
Ok(branches)
}
}
})
}
pub fn checkpoint(&self) -> oneshot::Receiver<Result<GitRepositoryCheckpoint>> {
self.send_job(|repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => git_repository.checkpoint().await,
RepositoryState::Remote { .. } => Err(anyhow!("not implemented yet")),
}
})
}
pub fn restore_checkpoint(
&self,
checkpoint: GitRepositoryCheckpoint,
) -> oneshot::Receiver<Result<()>> {
self.send_job(move |repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => {
git_repository.restore_checkpoint(checkpoint).await
}
RepositoryState::Remote { .. } => Err(anyhow!("not implemented yet")),
}
})
}
pub(crate) fn apply_remote_update(&mut self, update: proto::UpdateRepository) -> Result<()> {
let conflicted_paths = TreeSet::from_ordered_entries(
update
.current_merge_conflicts
.into_iter()
.map(|path| RepoPath(Path::new(&path).into())),
);
self.repository_entry.current_branch = update.branch_summary.as_ref().map(proto_to_branch);
self.repository_entry.current_merge_conflicts = conflicted_paths;
let edits = update
.removed_statuses
.into_iter()
.map(|path| sum_tree::Edit::Remove(PathKey(FromProto::from_proto(path))))
.chain(
update
.updated_statuses
.into_iter()
.filter_map(|updated_status| {
Some(sum_tree::Edit::Insert(updated_status.try_into().log_err()?))
}),
)
.collect::<Vec<_>>();
self.repository_entry.statuses_by_path.edit(edits, &());
Ok(())
}
pub fn compare_checkpoints(
&self,
left: GitRepositoryCheckpoint,
right: GitRepositoryCheckpoint,
) -> oneshot::Receiver<Result<bool>> {
self.send_job(move |repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => {
git_repository.compare_checkpoints(left, right).await
}
RepositoryState::Remote { .. } => Err(anyhow!("not implemented yet")),
}
})
}
pub fn delete_checkpoint(
&self,
checkpoint: GitRepositoryCheckpoint,
) -> oneshot::Receiver<Result<()>> {
self.send_job(move |repo, _cx| async move {
match repo {
RepositoryState::Local(git_repository) => {
git_repository.delete_checkpoint(checkpoint).await
}
RepositoryState::Remote { .. } => Err(anyhow!("not implemented yet")),
}
})
}
}
fn get_permalink_in_rust_registry_src(
provider_registry: Arc<GitHostingProviderRegistry>,
path: PathBuf,
selection: Range<u32>,
) -> Result<url::Url> {
#[derive(Deserialize)]
struct CargoVcsGit {
sha1: String,
}
#[derive(Deserialize)]
struct CargoVcsInfo {
git: CargoVcsGit,
path_in_vcs: String,
}
#[derive(Deserialize)]
struct CargoPackage {
repository: String,
}
#[derive(Deserialize)]
struct CargoToml {
package: CargoPackage,
}
let Some((dir, cargo_vcs_info_json)) = path.ancestors().skip(1).find_map(|dir| {
let json = std::fs::read_to_string(dir.join(".cargo_vcs_info.json")).ok()?;
Some((dir, json))
}) else {
bail!("No .cargo_vcs_info.json found in parent directories")
};
let cargo_vcs_info = serde_json::from_str::<CargoVcsInfo>(&cargo_vcs_info_json)?;
let cargo_toml = std::fs::read_to_string(dir.join("Cargo.toml"))?;
let manifest = toml::from_str::<CargoToml>(&cargo_toml)?;
let (provider, remote) = parse_git_remote_url(provider_registry, &manifest.package.repository)
.ok_or_else(|| anyhow!("Failed to parse package.repository field of manifest"))?;
let path = PathBuf::from(cargo_vcs_info.path_in_vcs).join(path.strip_prefix(dir).unwrap());
let permalink = provider.build_permalink(
remote,
BuildPermalinkParams {
sha: &cargo_vcs_info.git.sha1,
path: &path.to_string_lossy(),
selection: Some(selection),
},
);
Ok(permalink)
}
fn serialize_blame_buffer_response(blame: Option<git::blame::Blame>) -> proto::BlameBufferResponse {
let Some(blame) = blame else {
return proto::BlameBufferResponse {
blame_response: None,
};
};
let entries = blame
.entries
.into_iter()
.map(|entry| proto::BlameEntry {
sha: entry.sha.as_bytes().into(),
start_line: entry.range.start,
end_line: entry.range.end,
original_line_number: entry.original_line_number,
author: entry.author.clone(),
author_mail: entry.author_mail.clone(),
author_time: entry.author_time,
author_tz: entry.author_tz.clone(),
committer: entry.committer_name.clone(),
committer_mail: entry.committer_email.clone(),
committer_time: entry.committer_time,
committer_tz: entry.committer_tz.clone(),
summary: entry.summary.clone(),
previous: entry.previous.clone(),
filename: entry.filename.clone(),
})
.collect::<Vec<_>>();
let messages = blame
.messages
.into_iter()
.map(|(oid, message)| proto::CommitMessage {
oid: oid.as_bytes().into(),
message,
})
.collect::<Vec<_>>();
proto::BlameBufferResponse {
blame_response: Some(proto::blame_buffer_response::BlameResponse {
entries,
messages,
remote_url: blame.remote_url,
}),
}
}
fn deserialize_blame_buffer_response(
response: proto::BlameBufferResponse,
) -> Option<git::blame::Blame> {
let response = response.blame_response?;
let entries = response
.entries
.into_iter()
.filter_map(|entry| {
Some(git::blame::BlameEntry {
sha: git::Oid::from_bytes(&entry.sha).ok()?,
range: entry.start_line..entry.end_line,
original_line_number: entry.original_line_number,
committer_name: entry.committer,
committer_time: entry.committer_time,
committer_tz: entry.committer_tz,
committer_email: entry.committer_mail,
author: entry.author,
author_mail: entry.author_mail,
author_time: entry.author_time,
author_tz: entry.author_tz,
summary: entry.summary,
previous: entry.previous,
filename: entry.filename,
})
})
.collect::<Vec<_>>();
let messages = response
.messages
.into_iter()
.filter_map(|message| Some((git::Oid::from_bytes(&message.oid).ok()?, message.message)))
.collect::<HashMap<_, _>>();
Some(Blame {
entries,
messages,
remote_url: response.remote_url,
})
}
Reference in a new issue View git blame Copy permalink